<p>The nuclear export of mRNA represents a critical regulatory node in eukaryotic gene expression. This process is orchestrated by two conserved multi-subunit assemblies: the transcription-and-export complex (TREX) and TREX-2. While TREX facilitates mRNP packaging through multivalent RNA-protein interactions, the precise mechanism by which TREX-2 contributes to mRNA export has remained elusive. Here, we report a functional interaction between UAP56 and TREX-2 and resolve the structures of TREX-2 in both apo and UAP56-bound states. UAP56 engages TREX-2 via its N-terminal region, positioning its RecA domains on the V-shaped surface of the complex. A conserved loop from TREX-2 inserts between the RecA domains of UAP56, stabilizing an open conformation. Biochemical assays demonstrate that TREX-2 significantly stimulates the ATPase activity of UAP56, thereby promoting RNA release. These findings provide structural and mechanistic insights into TREX-2-mediated regulation of mRNA export through UAP56 remodeling.</p>

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Molecular insights into mRNA export regulation by the human TREX-2 complex

  • Xing Gong,
  • Ran Tao,
  • Xiaofei Ge,
  • Huihui Zhu,
  • Mengqi Li,
  • Yufang Chen,
  • Yongxiang Gao,
  • Jing Hang,
  • Xiaofeng Zhang

摘要

The nuclear export of mRNA represents a critical regulatory node in eukaryotic gene expression. This process is orchestrated by two conserved multi-subunit assemblies: the transcription-and-export complex (TREX) and TREX-2. While TREX facilitates mRNP packaging through multivalent RNA-protein interactions, the precise mechanism by which TREX-2 contributes to mRNA export has remained elusive. Here, we report a functional interaction between UAP56 and TREX-2 and resolve the structures of TREX-2 in both apo and UAP56-bound states. UAP56 engages TREX-2 via its N-terminal region, positioning its RecA domains on the V-shaped surface of the complex. A conserved loop from TREX-2 inserts between the RecA domains of UAP56, stabilizing an open conformation. Biochemical assays demonstrate that TREX-2 significantly stimulates the ATPase activity of UAP56, thereby promoting RNA release. These findings provide structural and mechanistic insights into TREX-2-mediated regulation of mRNA export through UAP56 remodeling.